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Task Analysis. What is task analysis ? Task Analysis Methods task decomposition knowledge based analysis entity-relationship techniques Sources of Information Uses of Task Analysis. What is Task Analysis? Methods of analysing people's jobs: what people do what things they work with
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Task Analysis • What is task analysis? • Task Analysis Methods • task decomposition • knowledge based analysis • entity-relationship techniques • Sources of Information • Uses of Task Analysis
What is Task Analysis? Methods of analysing people's jobs: what people do what things they work with what they must know
An Example in order to clean the house get the vacuum cleaner out fix the appropriate attachments clean the rooms when the dust bag gets full, empty it put the vacuum cleaner and tools away must know about: vacuum cleaners, their attachments,dust bags, cupboards, rooms etc.
Approaches to task analysis Task decomposition splitting task into (ordered) subtasks Knowledge based techniques what the user knows about the taskand how it is organised Entity-relation based analysis relationships between objects, actionsand the people who perform them General method: observe collect unstructured lists of words and actions organizeusing notation or diagrams
Differences from other techniques Systems analysis vs. Task analysis system design - focus - the user Cognitive models vs. Task analysis internal mental state - focus - external actions practiced `unit' task - focus - whole job
Task Decomposition Aims: describe the actions people do structure them within task subtask hierarchy describe order of subtasks Focus on Hierarchical Task Analysis (HTA) text and diagrams to show hierarchy plans to describe order
Textual HTA description Hierarchy description ... 0. in order to clean the house 1. get the vacuum cleaner out 2. get the appropriate attachment 3. clean the rooms 3.1. clean the hall 3.2. clean the living rooms 3.3. clean the bedrooms 4. empty the dust bag 5. put vacuum cleaner and attachments away ... and plans Plan 0: do 1 - 2 - 3 - 5 in that order.when the dust bag gets full do 4 Plan 3: do any of 3.1, 3.2 or 3.3 in any orderdepending on which rooms need cleaning N.B. only the plans denote order
Generating the hierarchy get list of tasks group tasks into higher level tasks decompose lowest level tasks further Stopping rules - How do we know when to stop? Is “empty the dust bag” simple enough? Purpose: expand only relevant tasks Motor actions: lowest sensible level
Refining the description Given initial HTA (textual or diagram) How to check/improve it? Some heuristics: paired actions e.g., where is `turn on gas' restructure e.g., generate task `makepot' balance e.g., is `pour tea' simplerthan making pot? generalise e.g., make one cup or two ….. or more
Types of plan fixed sequence - 1.1 then 1.2 then 1.3 optional tasks - if the pot is full 2 waiting for events - when kettle boils 1.4 cycles - do 5.1 5.2 while there are still empty cups time-sharing - do 1; at the same time ... discretionary - do any of 3.1, 3.2 or 3.3 in any order mixtures - most plans involve several of the above
Knowledge Based Analyses Focus on: Objects - used in task Actions - performed Taxonomies represent levels of abstraction
Knowledge Based Analyses - Example motor controls steering steering wheel, indicators engine/speed direct ignition, accelerator, foot brake gearing clutch, gear stick lights external headlights, hazard lights internal courtesy light wash/wipe wipers front wipers, rear wipers washers front washers, rear washers heating temperature control, air direction, fan, rear screen heater parking hand brake, door lock radio numerous!
TDH notation TDH - Task Description Hierarchy Three types of branch point in taxonomy: XOR - normal taxonomy - object in one and only one branch AND - object must be in both - multiple classifications OR - weakest case - can be in one, many or none wash/wipe AND function XOR wipe front wipers, rear wipers wash front washers, rear washers position XOR front front wipers, front washers rear rear wipers, rear washers
Larger TDH example kitchen item AND /____shape XOR / |____dished mixing bowl, casserole, saucepan, soup bowl, glass / |____ flat plate, chopping board, frying pan /____ function OR {____preparation mixing bowl, plate, chopping board {____cooking frying pan, casserole, saucepan {____dining XOR |____ for food plate, soup bowl, casserole |____ for drink glass N.B. ` /|{ ' used for branch types.
More on TDH Uniqueness rule: can the diagram distinguish allobjects? e.g., plate is: kitchen item/shape(flat)/function{preparation,dining(for food)}/ nothing else fits this description Actions have taxonomy too: kitchen job OR |____ preparation beating, mixing |____ cooking frying, boiling, baking |____ dining pouring, eating, drinking
Abstraction and cuts After producing detailed taxonomy `cut' it toyield abstract view. That is, ignore lower level nodes.e.g., cutting above shape and below dining,plate becomes:kitchen item/functionpreparation,dining/ This is a term inKnowledge Representation Grammar (KRG) These can be more complex: `beating in a mixing bowl’ becomeskitchen job(preparation)using a kitchen item/function{preparation}/
Entity-Relationship Based Techniques • focus on objects, actionsand their relationships • Similar to OO analysis, but includes non-computer entities • emphasises domain understandingnot implementation • Running example: `Vera's Veggies' - a market gardening firm owner/manager: Vera Bradshaw employees: Sam Gummage and Tony Peagreen various tools including a tractor `Fergie‘ two fields and a glasshouse new computer controlled irrigation system
Objects Start with list of objects and classify them: Concrete objects: simple things: spade, plough, glasshouse Actors: human actors: Vera, Sam, Tony, the customers what about the irrigation controller?
Objects (Cont’d) Composite objects: sets: the team = Vera, Sam, Tony tuples: tractor may be < Fergie, plough > To the objects add attributes: Object Pump3 simple - irrigation pump Attributes: status: on/off/faulty capacity: 100 liters/minute N.B. need not be computationally complete
Actions List actions and associate with each: agent - who performs the actions patient - which is changed by the action instrument - used to perform action Examples: Sam (agent) planted (action) the leeks (patient) Tony dug the field with the spade (instrument)
Actions (cont’d) Note: • implicit agents - read behind the words `the field was ploughed' - by whom? • indirect agency - the real agent? `Vera programmed the controller to irrigate the field' • messages - a special sort of action `Vera told Sam to ... ' • rôles - an agent acts in several rôles Vera as worker or as manager
E/R Example I - objects and actions ObjectSam human actor Actions: S1: drive tractor S2: dig the carrots ObjectVera human actor | the proprietor Actions: as worker V1: plant marrow seed V2: program irrigation controller Actions: as manager V3: tell Sam to dig the carrots Objectthe men composite Comprises: Sam, Tony Objectglasshouse simple Attribute: humidity: 0-100% ObjectIrrigation Controller non-human actor Actions: IC1: turn on Pump1 IC2: turn on Pump2 IC3: turn on Pump3 ObjectMarrow simple Actions: M1: germinate M2: grow
Events Events are when something happens • performance of action `Sam dug the carrots‘ • spontaneous events `the marrow seed germinated‘ `the humidity drops below 25%‘ • timed events `at midnight the controller turns on’
Relationships • object-object social - Sam is subordinate to Vera spatial - pump 3 is in the glasshouse • action-object agent (listed with object) • patient and instrument • actions and events • temporal and causal `Sam digs the carrots because Vera told him' • temporal relations also use HTA or dialogue notations. show task sequence (normal HTA) show object lifecycle (see page 241)
E/R example II - events and relations Events Ev1: humidity drops below 25% Ev2: midnight Relations: object-object location ( Pump3, glasshouse ) location ( Pump1, Parker's Patch ) Relations: action-object patient ( V3, Sam ) - Vera tells Sam to dig patient ( S2, the carrots ) - Sam digs the carrots ... instrument ( S2, spade ) - ... with the spade Relations: action-event before ( V1, M1 ) - the marrow must be sown before it can germinate triggers ( Ev1, IC3 ) - when humidity drops below 25%, the controller turns on pump 3 causes ( V2, IC1 ) - the controller turns on the pump because Vera programmed it
Sources of Information Documentation N.B. manuals say what is supposed tohappenbut, good for key words andprompting interviews Observation formal/informal, laboratory/field (seeChapter 11) Interviews the expert: manager or worker? (askboth!)
Early analysis Extraction from transcripts list nouns (objects) and verbs (actions) beware technical language and context: `the rain poured’ vs. `I poured the tea’ Sorting and classifying grouping or arranging words on cards ranking objects/actions for task relevance (see Ch. 11) use commercial outliner Iterative process: data sources analysis But costly, so use cheap sources where available
Manuals and Documentation • Conceptual Manual • from knowledge entity relations based analysis • good for open ended tasks • Procedural ‘How to do it’ Manual • from HTA description • good for novices • assumes all tasks known
Uses of Task Analysis II Requirements capture and systems design • lifts focus from system to use • suggests candidates for automation • uncovers user's conceptual model Detailed interface design • taxonomies suggest menu layout • object/action lists suggest interface objects • task frequency guides default choices • existing task sequences guide dialoguedesign NOTE.task analysis is never complete rigid task based design inflexiblesystem